pump FORD KUGA 2011 1.G User Guide

Auxiliary Coolant Flow Pump
General Equipment
Hose Clamp(s) General Equipment
Hose Clamp Remover/Installer
Removal
1. Refer to: Engine Cooling System Health and
Safety Precautions (100-00 General
Information, Description and Operation).
2. Refer to: Jacking(100-02 Jacking and Lifting,
Description and Operation).
3. General Equipment: Hose Clamp(s)
General Equipment: Hose Clamp
Remover/Installer Installation
1.
To install, reverse the removal procedure.
2. Check the coolant level.
Refer to: Cooling System Draining and Vacuum
Filling (303-03 Engine Cooling, General
Procedures). G1163562en
2008.50 Kuga 8/2011 412-02-17
Auxiliary Climate Control
412-02-17
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FORD KUGA 2011.0MY WORKSHOP REPAIR MANUAL11E112651

Fuel Fired Booster Heater Fuel Pump
Removal
1.
Refer to: Petrol and Petrol-Ethanol Fuel
Systems Health and Safety Precautions
(100-00 General Information, Description and
Operation).
2. Refer to: Fuel Tank - 2.5L Duratec
(147kW/200PS) - VI5 (310-01 Fuel Tank and
Lines, Removal and Installation).
3. Refer to: Quick Release Coupling (310-00 Fuel
System - General Information, General
Procedures). Installation
1.
To install, reverse the removal procedure. G1163564en
2008.50 Kuga 8/2011 412-02-25
Auxiliary Climate Control
412-02-25
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Description
Item
Instrument Cluster
1
PCM (powertrain control module)
2
EHPS (electro-hydraulic power steering)
control module
3
Audio unit
4
GEM (generic electronic module)
5
RCM (restraints control module)
6
PATS transceiver
7 Description
Item
Steering wheel lock module
8
Left-hand steering column switch
9
Fuel level sensor
10
Washer water level warning lamp switch
11
Accelerator pedal position sensor
12
CPP (clutch pedal position) sensor/BPP
(brake pedal position) sensor
13
Lighting control switch
14
System Operation
Instrument Cluster
The instrument cluster contains analog displays
as well as warning and control lamps for displaying
the system status; in addiiton, there is an LCD
indicator field for driver information.
The instrument cluster receives the following
signals from the PCM via the high speed CAN
(controller area network) Bus (HS-CAN):
• Vehicle speed – The PCM receives the necessary signalsfrom the ABS (anti-lock brake system) wheel
sensors from the ABS control unit on the
HS-CAN.
• Engine Coolant Temperature
• Engine oil pressure.
• Engine speed
The instrument cluster receives the following
signals from the GEM via the medium speed CAN
Bus (MS-CAN):
• Ambient temperature
• Brake fluid level
• Handbrake control
• Door latch control
• Liftgate latch control
• High beam control
• Headlamp flasher control
• Direction indicator control
The fuel level signal is sent by the two fuel level
sensors in the fuel pumps in the semitrailer tank,
which is wired to the instrument cluster. The
sensors are connected in series, and the total
resistance is determined from the two individual resistors. The instrument cluster converts the raw
fuel level signal into a damped fuel level value.
The odometer shows the total distance travelled
by the vehicle and is based on the same signal as
is processed for the daily mileage counter. The
value is recorded by the instrument cluster and
stored in a protected EEPROM (Electronically
Erasable Programmable Read Only Memory) area.
This area is a memory protected against
manipulation. If the instrument cluster detects an
error in this memory area, e.g. through damage,
the driver is notified with the "Odometer error"
message.
Message center
The message center is operated using the left-hand
switch on the steering column.
The SET/RESET button is activated to select a
submenu and change the settings. If signal tones
have been activated, a short acoustic signal will
sound each time a button is pressed.
By turning the rotary switch, the different menu
displays can be scrolled through or a setting
selected.
In this display, the navigation system can also
display direction and distance information.
In addition, safety and warning messages can be
displayed in this system, such as "Coolant
overheating", "Engine system error" or "Washer
fluid level too low". In addition to a safety message,
a general warning light (red/yellow) lights up.
G1030770en
2008.50 Kuga 8/2011 413-01-4
Instrument Cluster
413-01-4
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Description
Item
HS CAN
1
DLC2
MS CAN
3
Instrument cluster (gateway)
4
Front windshield wiper motors
5
GEM6
Rear window wiper motors
7
Indicator/heated windshield
8
Indicator/heated rear window
9 Description
Item
Mini-liftgate latch motor
10
Liftgate latch motor
11
Electric booster Heater
12
Front wiper windscreen washer pump
13
Rear wiper windscreen washer pump
14
Headlamp
15
Courtesy Lighting
16
Alarm horn
17
System Operation
GEM.
The following functions are controlled or performed
by the GEM at a battery voltage of between 9 and
16 volts:
• Current distribution
• Battery charging (Smart Charge)
• Ignition overload protection
• Headlamp switch-off delay
• Turn signals
• Interior lighting
• Heated windscreen
• Heated rear window and heated external mirrors
• Ambient air temperature
• Brake fluid level
• Automatic headlamps
• Combined rain sensor/light sensor
• Windshield wash/wipe system
• Speed control – reads the speed control switches andtransmits signals on the CAN data bus
• central door locking – transmits signals on the CAN data bus
• Anti-theft
• Electric booster Heater
• Climate control
• Parking brake –(monitors the switch and transmits the signal
on the CAN data bus
• Communication via the medium-speed CAN data bus Component Description
Battery charging (Smart Charge)
In addition to the familiar functions, the Smart
Charge system also performs the following
functions:
•
Automatic deactivation of non-critical high power
electrical consumers when the battery voltage
is low in order to reduce the level of current
drawn.
• Automatic activation of non-critical high power electrical consumers when the battery voltage
is excessively high in order to protect
components which are sensitive to increased
voltages.
The battery charging current is optimized through
continuous calculation of the battery temperature
and monitoring of the alternator output voltage.
The alternator load is signaled to the PCM
(powertrain control module) in order to provide it
with an early indication when an electric component
is to be switched on or off, thereby also providing
information about imminent changes to the amount
of torque demanded by the alternator. By
evaluating this information the PCM is capable of
increasing the stability of the engine under idling.
The two remaining functions of the Smart Charge
system are controlled by the GEM. G1030788en
2008.50 Kuga 8/2011 419-10-6
Multifunction Electronic Modules
419-10-6
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Generic Electronic Module (GEM)
General Equipment
Ford Diagnostic Equipment
Removal
CAUTIONS: Modules must not be swapped between
vehicles.
Compare the number of relays and fuses
in the defective GEM and the new GEM.
Transfer from the defective GEM any relays
and fuses which are not in the new GEM.
In doing so, pay attention that fuses with
the correct Ampere rating are used, by
referring to the wiring diagrams.
When installing a new GEM on vehicles
with a diesel engine, make sure that a fuel
pump fuse (F111) with 5A is used.
When installing a new GEM on vehicles
with a petrol engine, make sure that a fuel
pump fuse (F111) with 15A is used.
NOTE: GEM is integrated into the central junction
box (CJB) and cannot be removed individually.
1. NOTE: This step is only necessary when
installing a new component.
Upload the GEM configuration information using
the Programmable Modules Installation Routine.
General Equipment: Ford Diagnostic Equipment
2. Refer to: Battery Disconnect and Connect
(414-01 Battery, Mounting and Cables,
General Procedures).
3. 4.
5.
Installation
1.
To install, reverse the removal procedure.
2. NOTE: This step is only necessary when
installing a new component.
Download the GEM configuration information
to the newly installed GEM using the
programmable modules installation routine.
3. NOTE: This step is only necessary when
installing a new component.
Program all keys using the Key Programming
Routine.
General Equipment: Ford Diagnostic Equipment G1065605en
2008.50 Kuga 8/2011 419-10-14
Multifunction Electronic Modules
419-10-14
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FORD KUGA 2011.0MY WORKSHOP REPAIR MANUALE51159 122E102019 E102020

SECTION 205-02 Rear Drive Axle/Differential
VEHICLE APPLICATION:2008.50 Kuga
PA G E
CONTENTS
DESCRIPTION AND OPERATION
205-02-2
Rear Drive Axle and Differential (Component Location) .....................................................
205-02-6
Rear Drive Axle and Differential (System Operation and Component Description) ...........
205-02-6
System Operation ........................................................................\
.......................................
205-02-6
General Information ........................................................................\
................................
205-02-6
Driving situations ........................................................................\
....................................
205-02-6
Haldex clutch ........................................................................\
..........................................
205-02-7
General overview ........................................................................\
....................................
205-02-7
Operation ........................................................................\
................................................
205-02-7
Design of the 3rd generation Haldex clutch ....................................................................
205-02-9
Design of the multi-plate clutch ........................................................................\
...............
205-02-10
All-wheel drive control unit ........................................................................\
......................
205-02-10
Electric feed pump ........................................................................\
..................................
205-02-10
Pressure control - 3rd generation Haldex clutch .............................................................
205-02-11
Base pressure ........................................................................\
.........................................
205-02-12
Increased base pressure (preload) ........................................................................\
.........
205-02-13
Pressure build-up ........................................................................\
....................................
205-02-14
Design of the 4th generation Haldex clutch ...................................................................
205-02-14
General overview ........................................................................\
....................................
205-02-15
Pressure control - 4th generation Haldex clutch .............................................................
GENERAL PROCEDURES 205-02-17
Differential Fluid Level Check ........................................................................\
.....................
205-02-19
Active On-Demand Coupling Fluid Level Check ................................................................
REMOVAL AND INSTALLATION 205-02-21
Differential Case ........................................................................\
.........................................
205-02-25
Active On-Demand Coupling Module ........................................................................\
.........
205-02-32
Differential Input Shaft Seal ........................................................................\
........................
205-02-38
Differential Support Insulator ........................................................................\
......................
205-02-39
Rear Halfshaft Seal ........................................................................\
.....................................
205-02-41
Drive Pinion Seal ........................................................................\
........................................
DISASSEMBLY AND ASSEMBLY
205-02-42
Active On-Demand Coupling — Vehicles With: 5-Speed Automatic Transaxle - AW55
AWD/6-Speed Automatic Transaxle - 6DCT450 ...............................................................
205-02-1
Rear Drive Axle/Differential
205-02- 1
.
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Haldex coupling generation III
1
2
3
E114554
Description
Item
All-wheel drive control unit
1
Electric feed pump
2
Oil filter
3
Haldex coupling generation IV
1
2
3
4
E114555
Description
Item
All-wheel drive control unit
1
Electric feed pump
2
Reservoir
3
Oil filter
4
G1076980en2008.50 Kuga8/2011
205-02- 5
Rear Drive Axle/Differential
205-02- 5
DESCRIPTION AND OPERATION
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General overview
Haldex clutches of the 3rd and 4th generations are
used in the Ford Kuga.
The development of the third generation Haldex
clutch represents a big step forward in modern
all-wheel technology. The Haldex clutch is
electro-hydraulically controlled. Additional
information is taken into consideration during
control tasks via the all-wheel drive control unit.
Slip alone is no longer decisive for the distribution
of the propulsive forces; the vehicle's driving
dynamics are also taken into consideration. The
control unit accesses the driving-related data via
the data bus. With this data, the control unit has
all the essential information about speed, cornering,
coasting or traction operation, and can optimally
react to every driving situation.
Compared with the previous generation, the 4th
generation Haldex clutches operate with higher
pressure and achieve shorter response times when
distributing the drive forces.
Advantages of the Haldex clutch:
• Permanent all-wheel drive withelectronically-controlled multi-plate clutch
• Fast response
• No straining when parking and manoeuvring
• Compatible with different tyres (e.g. emergency spare wheel)
• Fully combinable with driving dynamic control systems
The driveshaft is connected to the input shaft of
the Haldex clutch. Within the Haldex clutch, the
input shaft is separated from the output shaft to
the rear axle differential by means of a multi-plate
clutch. Torque is only transmitted to the rear axle
differential when the plate assembly of the Haldex
clutch is closed.
The multi-plate clutch is electro-hydraulically
controlled via the all-wheel drive control unit. For
ecological driving, the torque to the rear axle is reduced to a minimum up to a throttle position of
approx. 50%. A prerequisite for this is that there is
no difference in speed in the Haldex clutch between
the input and output shafts.
Operation
E100645
16
3
25
4
Description
Item
Output shaft
1
Working piston
2
Plates
3
Ring piston pump
4
Control Valve
5
Input shaft
6
Within the Haldex clutch is a plate assembly and
a so-called ring piston pump with a pump plunger
and a working piston.
Fluid supply is started if there is a speed difference
between the input and output shafts.
This fluid pressure is transmitted to the working
piston and in this way the plate assembly is
compressed.
Design of the 3rd generation Haldex
clutch
G1076981en2008.50 Kuga8/2011
205-02- 7
Rear Drive Axle/Differential
205-02- 7
DESCRIPTION AND OPERATION
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E100664
1
3
4
11
11
10
9
8
76
5
2
Description
Item
Multiplate clutch
1
Ring piston pump
2
All-wheel drive control unit
3
Pressure relief valve (high pressure)
4
Input shaft
5Description
Item
Electric feed pump
6
Fluid filter
7
Pressure accumulator
8
Pressure relief valve (low pressure)
9
Preload valve
10
High-pressure valves
11
G1076981en2008.50 Kuga8/2011
205-02- 8
Rear Drive Axle/Differential
205-02- 8
DESCRIPTION AND OPERATION
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The Haldex clutch is based on the principle of a
simple wet clutch that distributes the torque variably
between the front and rear axles.
Three components are linked within the Haldex
clutch:• A mechanical component, comprising input and
output shafts, the plate assembly (clutch) as
well as the cam plate and the roller bearing.
• A hydraulic component, essentially comprising pressure valves, a pressure accumulator, the
control valve, the ring pistons and a fluid filter.
• The electronic control comprises the electric fluid pump and the all-wheel drive control unit
with integrated pressure/temperature sensor
and an actuator motor for the control valve.
Design of the multi-plate clutch
7
4
3
2
8
1
6
10911
13
A
B12
5
E100662
Description
Item
Pump plunger assembly
A
Working piston assembly
B
Output shaft
1
Inner plates
2
Outer plates
3
Disc drum
4
Contact plate
5Description
Item
Input shaft
6
Cam disc
7
Springs
8
Pump plunger roller
9
Pump plunger roller
10
Pump plunger
11
Working piston roller
12
Working piston
13
G1076981en2008.50 Kuga8/2011
205-02- 9
Rear Drive Axle/Differential
205-02- 9
DESCRIPTION AND OPERATION
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